INCREASE OF HYDROGEN OUTPUT DUE TO COMBINED CONVERSION OF DIFFERENT ORIGIN RAW MATERIALS N.B. Golub

The article presents the impact results of the microalgae and glycerol fraction wastes of biodiesel production when added cellulose containing raw materials for hydrogen production in a fermentation process conducted by microorganisms association. Production rate of hydrogen increased 1.5 times when the ratio of waste straw and barley microalgae is 8: 2, and hydrogen concentration in the gas phase increased by 5%. The glycerol fraction, which is formed in the production of biodiesel, has the same effect. Simultaneous injection of glycerol and microalgae increased of the hydrogen production rate 2 times.

водород, ферментация, сельскохозяйственные отходы, ассоциация микроорганизмов, микроводоросли, hydrogen, fermentation, agricultural waste, associations of microorganisms, microalgae

1. Demirer G.N., Othman M. Two phase thermophilicacidification and mesophilicmethanogenesis anaerobic digestion of waste activated sludge // Environ. Eng. Sci. 2008. V. 25. No. 9. P. 1291-1300.

2. Levin D.B., Chahine R. Challenges for renewable hydrogen production from biomass // Int. J. Hydrogen Energy. 2010. Vol. 35. No. 10. P. 4962-4969.

3. De La Rubia M. A., Raposo F., Rinco'n B., Borja R. Evaluation of the hydrolytic acidogenic step of a two-stage mesophilic anaerobic digestion process of sunflower oil cake // Bioresour. Technol. 2009. Vol.100. No 18. P. 4133-4138.

4. Chen S-D., Lee K-S., Lo Y-C., Chen W-M., Wu J-F., Lin C-Y., Chang J-S. Batchand continuous biohydrogen production from starch hydrolysate by Clostridium species //Int. J Hydrogen Energy. 2008. Vol. 33. No 7. P. 1803-1812.

5. Голуб Н.Б. Технологическая схема процесса получения биоводорода при использовании сельскохозяйственных отходов // Відновлювальна енергетика. 2013. № 2. С. 80 - 84.

6. Srikanth S. Mohan S. Regulatory function of divalent cations in controlling the acido-genicbiohydrogen production process // RSC Advances. 2012. Vol. 2. No. 16. P. 6576 - 6589.

7. Venkata Mohan S., LalitBabu V., Sarma P.N. Anaerobic biohydrogen production from dairy wastewater treatment in sequencing batch reactor (AnSBR): Effect of organic loading rate // Enzyme Microbial. Technol. 2007. vol. 41. No. 4.P. 506-515.

8. Lay J-J., Fan K-S., HwangJ-I., ChangJ-I., Hsu P-C. Factors affecting hydrogen production from food wastes by Clostridium-richcomposts // Environ. Eng. 2005. vol. 131. No. 4. P. 595 - 602.

9. El-Sakhawy M., Ha M. L. Physical and mechanical properties of microcrystalline cellulose 4, prepared from agricultural residues // Carbohydrate Polum.2007. No. 67. P. 1-10.

10. Хроматографлабораторный ЛХМ-8МД: техническое описание инструкция по эксплуатации // Опытный завод «Хроматограф». Москва, 1992. 50с.

11. Карасек Ф., Клемент P. Введение в хроматомасс-спектрометрию: Пер. с англ. М.: Мир, 1993. 237 с.

12. Кондратьева Е.Н., Гоготов И.Н. Молекулярный водород в метаболизме микроорганизмов // М.: Наука, 1981. 340с.